mars/mars_trans_logger.h

204 lines
5.6 KiB
C

// (c) 2010 Thomas Schoebel-Theuer / 1&1 Internet AG
#ifndef MARS_TRANS_LOGGER_H
#define MARS_TRANS_LOGGER_H
#define REGION_SIZE_BITS (PAGE_SHIFT + 4)
#define REGION_SIZE (1 << REGION_SIZE_BITS)
#define TRANS_HASH_MAX 8192
//#define TRANS_HASH_MAX 16384
#include <linux/time.h>
#include "lib_log.h"
#include "lib_pairing_heap.h"
#include "lib_queue.h"
////////////////////////////////////////////////////////////////////
_PAIRING_HEAP_TYPEDEF(logger,)
struct logger_queue {
QUEUE_ANCHOR(logger,loff_t,logger);
struct trans_logger_brick *q_brick;
const char *q_insert_info;
const char *q_pushback_info;
const char *q_fetch_info;
};
struct logger_head {
struct list_head lh_head;
loff_t *lh_pos;
struct pairing_heap_logger ph;
};
////////////////////////////////////////////////////////////////////
#ifdef CONFIG_MARS_LOGROT
#define TL_INPUT_READ 0
#define TL_INPUT_WRITEBACK 0
#define TL_INPUT_LOG1 1
#define TL_INPUT_LOG2 2
#define TL_INPUT_NR 3
#else
#define TL_INPUT_READ 0
#define TL_INPUT_WRITEBACK 0
#define TL_INPUT_LOG1 1
#define TL_INPUT_LOG2 1
#define TL_INPUT_NR 2
#endif
struct hash_anchor {
//rwlock_t hash_lock;
struct rw_semaphore hash_mutex;
struct list_head hash_anchor;
};
struct writeback_info {
struct trans_logger_brick *w_brick;
struct logger_head w_lh;
loff_t w_pos;
int w_len;
int w_error;
struct list_head w_collect_list; // list of collected orig requests
struct list_head w_sub_read_list; // for saving the old data before overwrite
struct list_head w_sub_write_list; // for overwriting
atomic_t w_sub_read_count;
atomic_t w_sub_write_count;
atomic_t w_sub_log_count;
void (*read_endio)(struct generic_callback *cb);
void (*write_endio)(struct generic_callback *cb);
};
struct trans_logger_mref_aspect {
GENERIC_ASPECT(mref);
struct trans_logger_brick *my_brick;
struct trans_logger_input *my_input;
struct trans_logger_input *log_input;
struct logger_head lh;
struct list_head hash_head;
//struct list_head q_head;
struct list_head pos_head;
struct list_head replay_head;
struct list_head collect_head;
struct pairing_heap_logger ph;
struct trans_logger_mref_aspect *shadow_ref;
struct trans_logger_mref_aspect *orig_mref_a;
void *shadow_data;
int orig_rw;
int wb_error;
bool do_dealloc;
bool do_buffered;
bool is_hashed;
bool is_dirty;
bool is_collected;
bool is_completed;
struct timespec stamp;
loff_t log_pos;
struct generic_callback cb;
struct writeback_info *wb;
struct list_head sub_list;
struct list_head sub_head;
int total_sub_count;
int alloc_len;
atomic_t current_sub_count;
};
struct trans_logger_brick {
MARS_BRICK(trans_logger);
// parameters
int shadow_mem_limit; // max # master shadows
int limit_congest;// limit phase1 congestion.
int max_mref_size;// shorten mrefs to this maxlen
int align_size; // alignment between requests
int chunk_size; // must be at least 8K (better 64k)
int flush_delay; // delayed firing of incomplete chunks
int completion_semantics; // 0 = early completion of all writes, 1 = early completion of non-sync, 2 = late completion
int max_flying; // limit # of log write requests in parallel
bool do_replay; // mode of operation
bool do_continuous_replay; // mode of operation
bool log_reads; // additionally log pre-images
bool minimize_latency; // ... at the cost of throughput. ==0 means immediate flushing
bool debug_shortcut; // only for testing! never use in production!
loff_t replay_start_pos; // where to start replay
loff_t replay_end_pos; // end of replay
int new_input_nr; // whereto we should switchover ASAP
// readonly from outside
int log_input_nr; // where we are currently logging to
int old_input_nr; // where old IO requests may be on the fly
int replay_code; // replay errors (if any)
// private
loff_t old_margin;
spinlock_t replay_lock;
struct list_head replay_list;
struct task_struct *thread;
wait_queue_head_t worker_event;
wait_queue_head_t caller_event;
// statistics
atomic64_t shadow_mem_used;
atomic_t replay_count;
atomic_t fly_count;
atomic_t hash_count;
atomic_t pos_count;
atomic_t mshadow_count;
atomic_t sshadow_count;
atomic_t outer_balance_count;
atomic_t inner_balance_count;
atomic_t sub_balance_count;
atomic_t wb_balance_count;
atomic_t total_replay_count;
atomic_t total_cb_count;
atomic_t total_read_count;
atomic_t total_write_count;
atomic_t total_flush_count;
atomic_t total_writeback_count;
atomic_t total_writeback_cluster_count;
atomic_t total_shortcut_count;
atomic_t total_mshadow_count;
atomic_t total_sshadow_count;
atomic_t total_round_count;
atomic_t total_restart_count;
atomic_t total_delay_count;
// queues
struct logger_queue q_phase1;
struct logger_queue q_phase2;
struct logger_queue q_phase3;
struct logger_queue q_phase4;
bool did_pushback;
bool did_work;
bool delay_callers;
struct hash_anchor hash_table[TRANS_HASH_MAX];
};
struct trans_logger_output {
MARS_OUTPUT(trans_logger);
};
struct trans_logger_input {
MARS_INPUT(trans_logger);
// parameters
loff_t log_start_pos; // where to start logging
// informational
long long last_jiffies;
char *inf_host;
int inf_sequence; // logfile sequence number
bool is_prepared;
// readonly from outside
loff_t replay_min_pos; // current replay position (both in replay mode and in logging mode)
loff_t replay_max_pos; // dito, indicating the "dirty" area which could be potentially "inconsistent"
bool is_operating;
// private
struct log_status logst;
spinlock_t pos_lock;
struct list_head pos_list;
};
MARS_TYPES(trans_logger);
#endif